T
Thomas M. Badger
Researcher at University of Arkansas for Medical Sciences
Publications - 305
Citations - 13313
Thomas M. Badger is an academic researcher from University of Arkansas for Medical Sciences. The author has contributed to research in topics: Soy protein & Offspring. The author has an hindex of 63, co-authored 299 publications receiving 12304 citations. Previous affiliations of Thomas M. Badger include University of Arkansas & United States Department of Agriculture.
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Maternal pregravid obesity changes gene expression profiles toward greater inflammation and reduced insulin sensitivity in umbilical cord
Keshari M. Thakali,Jessica Saben,Jennifer Faske,Forrest Lindsey,Horacio Gomez-Acevedo,Curtis L. Lowery,Thomas M. Badger,Aline Andres,Kartik Shankar +8 more
TL;DR: A positive association between maternal obesity and changes in UC gene expression profiles favoring inflammation and insulin resistance is suggested, potentially predisposing infants to develop metabolic dysfunction later on in life.
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Cytochrome P450 enzymes in the kidney of the bobwhite quail (Colinus virginianus): induction and inhibition by ergosterol biosynthesis inhibiting fungicides.
TL;DR: The effects of treatment with the fungicides: propiconazole, vinclozolin, clotrimazole and ketoconazole were examined in kidney microsomes from male Bobwhite quail (Colinus virginianus) as mentioned in this paper.
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Cesarean Delivery Impacts Infant Brain Development
Sean C.L. Deoni,S.H. Adams,X. Li,Thomas M. Badger,R.T. Pivik,Charles M. Glasier,Raghu H. Ramakrishnaiah,Amy C. Rowell,Xiawei Ou +8 more
TL;DR: Cesarean delivery may influence infant brain development and the impact may be transient because similar effects were not observed in older children, and further prospective and longitudinal studies may be needed to confirm these novel findings.
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Altered mammary gland differentiation and progesterone receptor expression in rats fed soy and whey proteins.
TL;DR: Results show that the type of dietary protein alters the phenotype of mammary epithelia in the TEBs, and the SPI- and WPH-dependent changes in mammary differentiation may contribute to the reduced sensitivity to DMBA-induced mammary cancer in rats fed these proteins.
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Development of tensile strength during distraction osteogenesis in a rat model.
James Aronson,William R. Hogue,Flahiff Cm,G. G. Gao,X. C. Shen,Robert A. Skinner,Thomas M. Badger,Charles K. Lumpkin +7 more
TL;DR: In conclusion, in vitro tensile testing provides a reliable method to test the development of structural integrity during the early stages of DO in a rat model and the biomechanical effects of postulated modulators of bone repair can be measured during early stages.